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Da inzwischen klar ist, dass uns viele Rohstoffe zukünftig nur noch begrenzt zur Verfügung stehen werden, wird seit einiger Zeit intensiv an Alternativen geforscht: Nachhaltigkeit ist das Gebot der Stunde und für Politik wie Industrie das Zauberwort für eine bessere Zukunft. Zudem ist das Bewusstsein für einen umweltverträglichen Umgang mit Werkstoffen und das Denken in Materialkreisläufen beim Konsumenten angekommen: Die Verwendung umweltverträglicher Materialien und Produktionsverfahren wird vom Kunden gewünscht, ja gar vorausgesetzt. Designern und Architekten kommt somit eine besondere Rolle und Verantwortung zu. Denn sie sind es, die bei ihren Projekten die Auswahl über die eingesetzten Werkstoffe treffen und damit entscheidenden Einfluss auf die Nachhaltigkeit unserer Produktwelt nehmen. Gleichzeitig haben wir es mit einer Flut neuer Materialien zu tun, was besondere Kenntnisse in Bezug auf ihre Eigenschaften, den möglichen Einsatz und ihre Verarbeitung erfordert. Materialrevolution schlägt hier die Brücke von Forschung und Industrie zu den Designern und Architekten, indem es einen systematischen Überblick über die derzeit verfügbaren nachhaltigen Materialien bietet und alle relevanten Information liefert, um die Eignung und das Potential eines neuen Materials für das eigene Projekt zu beurteilen. Dabei werden sowohl natürliche und biologisch abbaubare Materialien beleuchtet, als auch Werkstoffe mit multifunktionalen Eigenschaften und Potenzialen zur Verringerung des Energieeinsatzes vorgestellt. Since it is now clear that in the future many raw materials will only be available to us in limited quantities, scientists have for some time been conducting intensive research into possible alternatives. Sustainability is the order of the day and the magic word for a better future in politics and industry. Moreover, environmental consciousness and a penchant for thinking in terms of material cycles have caught on with consumers: the use of environmentally compatible materials and production methods is desired, even taken for granted by the client. Designers and architects thus have a special role and responsibility. For they are the ones who decide what materials will be used on their projects and thus wield enormous influence on the sustainability of our product world. At the same time, we are dealing with a flood of new materials, which calls for specialized knowledge of their properties, their possible use, and their handling. Material Revolution bridges the gap between research and industry on the one hand and designers and architects on the other by offering a systematic overview of the currently available sustainable materials and providing the reader with all the information he or she needs to assess a new material's suitability and potential for a given project. Along the way, it examines natural and biodegradable materials, while also presenting materials with multifunctional properties and the potential for diminishing energy requirements.
745.5 --- designmaterialen --- materialenkennis --- designmaterialen - algemeen --- Sustainable architecture --- Architecture --- Sustainable design. --- Environmental aspects. --- Sustainable architecture. --- Eco-architecture --- Environmentally conscious architecture --- Environmentally friendly architecture --- Green architecture --- Green building design --- Green design (Buildings) --- Sustainable design (Buildings) --- Green design --- Sustainable design --- 691.504 --- 691(03) --- Architectuur; materialen --- Ecologische bouwmaterialen --- Materialen ; technieken ; naslagwerken --- Duurzame architectuur ; materialen --- Interieurarchitectuur ; materialen --- Design --- Bouwmaterialen ; naslagwerken --- 691.504 Building materials and the environment. Sustainable building materials --- Building materials and the environment. Sustainable building materials
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Materiality is a recurring and central issue in architecture. This book explains how materials are "constructed", how they become cultural substances. Metamorphism investigates the complex relationship between natural materials and technology, science and sensuality. Gottfried Semper (1803-1879) made the notion of Stoffwechsel the key element of his theory. With this concept he intended to explain how a structural form originally bound to a method of processing is transferred from one material to another, liberated from its original function. For the first time, the book investigates the subject from a historic point of view whilst reflecting on current interdisciplinary research. Examples from Aalto to Zumthor illustrate the specific aspects of historic and contemporary material concepts.
Construction --- Matériaux --- materials science --- architectural history --- technology --- Materials sciences --- Architecture --- Philosophy and psychology of culture --- 691(03) --- Bouwmaterialen --- Architectuur; materialen --- Bouwmaterialen ; naslagwerken --- Bouwmaterialen ; doorheen de architectuurgeschiedenis --- Architectuur ; materialen --- Gevelbekledingen --- Wandbekledingen --- Building materials --- Architectural design --- Matériau --- Morphologie --- Histoire de la construction --- Théorie de l'architecture --- Semper, Gottfried, --- technology [general associated concept] --- Matériaux. --- Building materials. --- Philosophy. --- History. --- Philosophy --- Histoire --- Philosophie --- Influence. --- Semper, Gottfried, 1803-1879 --- Matériaux
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691 --- 691.7 --- 624.014 --- 691.714 --- 693.814 --- 693.814 Structural steelwork --- Structural steelwork --- 691.714 Steel --- Steel --- 624.014 Metal structures --- Metal structures --- Bouwmaterialen (architectuur) --- Staal --- Staalconstructies --- Metaal --- Metaalconstructies --- Building, Iron and steel. --- Metal products. --- Steel, Structural. --- Building, Iron and steel --- Metal products --- Steel, Structural --- Structural steel --- Building materials --- Civil engineering --- Girders --- Iron and steel bridges --- Iron, Structural --- Structural steel industry --- Products, Metal --- Manufactures --- Architectural engineering --- Engineering, Architectural --- Iron and steel building --- Iron construction --- Steel and iron building --- Steel construction --- Graphic statics --- Iron --- Staalconstructies ; metaalconstructies --- Architectuur ; materialen ; metaal --- Architectuur ; materialen ; staal --- Bouwmaterialen ; metalen --- 693.8 --- Staalconstructies. Metaalconstructies --- Building, iron and steel --- Steel, structural
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691 --- 658.512.2 --- 691(03) --- Duurzame architectuur ; materialen --- Ecologische bouwmaterialen --- Materialen ; technieken ; naslagwerken --- Interieurarchitectuur ; materialen --- 745.5 --- designmaterialen --- materialenkennis --- 658.512.2 Designing. Shape, design, construction of products. Industrial design --- Designing. Shape, design, construction of products. Industrial design --- 691 Building materials. Building components --- Building materials. Building components --- Bouwmaterialen ; naslagwerken --- designmaterialen - algemeen
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Materialien und deren Oberflächen verleihen Bauwerken und Innenräumen ihren unverwechselbaren Charakter. Aber nach welchen Kriterien treffen Architekten die Entscheidung für oder gegen ein bestimmtes Material? Wie finden sie sich im unendlich erscheinenden Angebot zurecht? Die Materialwahl erfolgt heute meist völlig losgelöst von lokalen Gegebenheiten und Traditionen, auch konstruktive Anforderungen schränken die Auswahl in der Regel kaum ein.Diese Publikation aus der Reihe »best of Detail« bietet Orientierung. Sie zeigt verschiedene Herangehensweisen renommierter Architekturbüros an die Materialwahl auf, sie liefert Einblicke in die Materialforschung und technische Innovationen, die zum Experimentieren einladen. Nicht zuletzt die Vielzahl realisierter Architekturprojekte aus Detailveröffentlichungen der letzten vier Jahre liefert eine Menge Inspirationen für die eigene Praxis. Materials and their finishes lend buildings and interiors their distinctive characters. Yet, which criteria persuade architects to use or not use a particular material? How do they find the right one among a seamlessly endless array of materials? Today, material selection is usually kept completely separate from local conditions and traditions and is rarely restricted by design requirements.This volume, part of the "Best of Detail" series, provides guidance while presenting different approaches of renowned architecture firms in how they select materials. It also provides an insight into material research and technological innovations that are perfect for experimentation. Last but not least, several completed architectural projects from Detail publications from the past four years offer abundant inspiration for the reader's own work.
Architecture intérieure --- (Produktform)Paperback / softback --- Architekturprojekte --- Detail --- Fassade --- Innenraum --- Material --- Materialentwicklungen --- Materialforschung --- Materialwahl --- Oberfläche --- technische Innovationen --- (VLB-WN)1584: Hardcover, Softcover / Kunst/Architektur --- Finitions --- Détail d'architecture --- Détail de construction --- Architecture contemporaine --- Toiture --- Revêtement --- Revêtement de façade --- Revêtement de mur --- Mur --- 691 <03> --- 691(03) --- Materialen ; technieken ; naslagwerken --- Architectuur; materialen --- Interieurarchitectuur ; materialen --- 691 <03> Building materials. Building components--Naslagwerken. Referentiewerken --- Building materials. Building components--Naslagwerken. Referentiewerken --- Bouwmaterialen ; naslagwerken --- Architecture intérieure. --- Second oeuvre --- Architecture, Modern. --- Architecture, Modern --- Modern architecture --- 2000-2099 --- Architecture intérieure
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The construction industry operates within a linear economy of make, use, dispose. Buildings are stripped out and torn down with astonishing regularity while new buildings are constructed from hard-won virgin materials. But raw materials are becoming scarce, and the demands for them are exploiting fragile ecosystems, even as the global demand for resources continues to rise. Policy makers and organisations are beginning to look for a more regenerative, circular economy model. The construction industry demands over half the world's extracted materials and generates around a third of the total waste generated in the EU, making it a prime candidate for applying the circular economy. Yet there has been little focus on how construction industry professionals and their clients can contribute towards the movement. Drawing on illustrative methods and examples, Building Revolutions explains how the principles of a circular economy can be applied to the built environment where resources are kept in use and their value retained. 0The book describes how buildings and materials can be reused or salvaged to extend their life and proposes ways new business models can be applied to reduce capital and lifecycle costs, providing a positive architectural legacy for future generations.
Sustainable construction --- Sustainable buildings --- Buildings --- Building materials --- 72:574 --- Architectuur en ecologie --- Duurzame architectuur ; materialen --- Bouwmaterialen ; recyclage --- Ontwerptheorie ; over hergebruik ; recyclage --- Architectural materials --- Architecture --- Building --- Building supplies --- Construction materials --- Structural materials --- Materials --- Adaptive reuse of buildings --- Ecologically sustainable buildings --- Environmentally sustainable buildings --- Green buildings (Green technology) --- Sustainable development --- Green construction --- Sustainable engineering --- Remodeling for other use --- Adaptive reuse --- Conservation and restoration --- circulaire economie --- circulair bouwen --- recyclage --- bouwmaterialen --- duurzaamheid
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In architectural education, the study of materials and the study of design are often treated as separate areas of discourse, when in reality the two are utterly intertwined. The choice of construction materials affects the look and feel of built form, while inspired design sense injects life into a building's ingredients. This book is aimed at students of architecture and young practising architects. Through its detailed descriptions of glass, concrete, wood, metals and plastics - covering their unique properties, histories and various forms - the book lays the educational foundation for any aspiring architect. Each section features 10-12 case studies, including plans, sections, elevations and details, together with colour photographs illustrating the inspired and widely varied ways in which these materials can be applied. Among the case studies are works by Steven Holl, Shigeru Ban, Rural Studio, Campo Baeza, Arets and many others.
Building materials. Building technology --- building materials --- Architecture --- Building materials. --- Architectural design. --- Architecture, Modern --- Construction --- Design architectural --- Case studies. --- Matériaux --- Cas, Etudes de --- Construction en béton --- Construction en bois --- Construction en verre --- Construction métallique --- Dessin technique --- Elément d'architecture --- Détail de construction --- Matière --- Matière plastique --- 691 --- Architectuur ; materialen --- Bouwmaterialen ; constructies ; handboeken --- Wanden ; muren ; vloeren ; plafonds ; daken ; gevels --- 692.232 --- 69.06 --- Design --- Structural design --- Architectural materials --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Bouwmaterialen (architectuur) --- Constructie-elementen van gebouwen ; buitenmuren ; bekleding --- Bouwwezen ; draagconstructies, pneumatische constructies, overspanningen --- History --- Architectuur --- Materiaalleer --- Architectuur. --- Design. --- Materiaalleer. --- Matériaux --- Building materials --- Architectural design
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"This book is a highly illustrated 'atlas', taking the reader on a journey via four distinct 'steps' (recycling, reuse, reduce, closed loop), from a linear economy towards a system emulating the natural world - a circular economy. Featuring over 20 detailed case studies describing design exemplars from the worlds of textile and fashion design, product design, interior architecture, architecture and urban design, this book's purpose is to show designers how they can successfully navigate and exploit the emerging field of resource management and the circular economy. Each step is supplemented with an in-depth interview with an expert who is successfully tackling one or more of these challenges that face all designers today and includes contributory essays from, among others, Professor Walter Stahel of the Product-Life Institute, and Professor Jonathan Chapman, author of Emotionally Durable Design."--Cover.
Sustainable design --- Waste products --- recyclage --- recycleren --- circulaire economie --- afvalbeheer --- ecologie --- ontwerpen --- By-products --- Industrial wastes --- Products, Waste --- Trades-waste --- Utilization of waste --- Waste materials --- Manufacturing processes --- Factory and trade waste --- Recycling (Waste, etc.) --- Refuse and refuse disposal --- Scrap materials --- Substitute products --- Waste spills --- Green design --- Design --- Recycling --- 72:574 --- Duurzame architectuur ; materialen --- Bouwmaterialen; Hergebruik --- Ontwerptheorie ; over hergebruik ; recyclage --- Ontwerptheorie ; duurzaam ; ecologisch design --- Architectuur en ecologie --- Economics --- Environmental protection. Environmental technology --- Production management --- Architecture --- design [discipline] --- adaptive reuse --- recycling --- sustainability --- Environmental aspects. --- 72.025.5 --- Architectuur ; hergebruik van gebouwen --- Waste products - Recycling --- Traitement des dÉchets --- Matériau recyclé --- Economie circulaire
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Although traditionally a building material of the warmer climate zones, bamboo is becoming increasingly popular amongst architects in the northern hemisphere; bamboo has several advantages - it is very stable, of low weight, and highly elastic, in addition to being readily available as well as renewable. The applications of bamboo in architecture have become significantly wider and diversified, so that today, even structures with large spans - such as bridges - are built with this material. The new and revised second edition of this manual provides a practical, systematic overview of the numerous potential applications and processing methods of this renewable material. The comprehensive presentation of groundbreaking bamboo buildings has been updated with more recent projects. Ein traditionelles Baumaterial der warmen Klimazonen Asiens und Lateinamerikas, erfreut sich Bambus eines wachsenden Interesses unter Architekten der nördlichen Hemisphäre: Bambus hat nicht nur ein geringes Gewicht bei großer Stabilität und ist ausgesprochen elastisch, sondern zeichnet sich auch durch Eigenschaften aus, die in Zeiten schwindender Ressourcen besonders gefragt sind: das Material ist reichlich verfügbar und zudem erneuerbar. Die Anwendungsbereiche von Bambus in der Architektur haben sich erheblich erweitert und diversifiziert, so dass heute sogar weitgespannte Konstruktionen wie Brücken daraus gebaut werden. Von diesen technischen und ästhetischen Möglichkeiten beeindruckt, nutzen auch Architekten in Europa, Nordamerika und Japan Bambus für vielfältige Bauaufgaben. In den letzten Jahren sind unter anderem private Wohnhäuser und Ausstellungspavillons aus Bambus entstanden, Überdachungen und sogar Schul- und Museumsgebäude. Die neue und überarbeitete 2. Auflage dieses Handbuchs bietet einen praxisorientierten systematischen Überblick über die zahlreichen Einsatzmöglichkeiten und Verarbeitungstechniken dieses nachwachsenden Materials. Die umfangreiche Präsentation von Bambusbauten wurde durch neuere Projekte aktualisiert.
Bamboo construction --- Sustainable architecture --- Bamboo --- Bamboos --- Bambusaceae --- Bambusoideae --- Grasses --- Eco-architecture --- Environmentally conscious architecture --- Environmentally friendly architecture --- Green architecture --- Green building design --- Green design (Buildings) --- Sustainable design (Buildings) --- Architecture --- Sustainable design --- Building, Bamboo --- Construction, Bamboo --- Structures, Bamboo --- Building --- Utilization --- 691.1 --- 691.12 --- Ecologische bouwmaterialen --- Bouwmaterialen; bamboe --- Architectuur; materialen --- bamboe --- bouwconstructie --- architectuur --- 691.1 Materials of organic origin --- Materials of organic origin --- Bouwmaterialen ; plantenstengels, stro, riet, bamboe --- Bamboe --- Bouwmaterialen --- Houtsoorten --- 693.2 --- Hout --- Houtproducten --- Travail du bambou --- Constructions en bambou --- Architecture durable --- Bambou --- Bois --- Construction --- Matériau végétal
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ETFE foil has recently become an important material for the cladding of technologically sophisticated and innovative buildings. This material is very thin and lightweight and, when used in air-filled cushion assemblies, has enormous strength and a range of adaptive environmental attributes. ETFE cushion enclosures became known primarily through Grimshaw Architects' Eden Project and Herzog + de Meuron's Allianz Arena, and they are being used on the spectacular swimming stadium for the 2008 Olympic Games in Beijing, the largest ETFE building envelope in the world so far. This book is conceived as an in-depth introduction to the characteristics of ETFE and its applications in construction. Project examples explore in detail the specific characteristics of ETFE building skins in the areas of structural behavior, light transmission, insulation, acoustics, fire engineering and environmental modification. In funktional und technologisch anspruchsvollen und innovativen Gebäudeentwürfen hat die Verwendung von ETFE-Folien in jüngster Zeit große Bedeutung erlangt. Dieses Folienmaterial ist von erstaunlicher Dünnheit bei enormer Reißfestigkeit und ist zum Teil leichter als die Luft, die es umschließt. Bekannt geworden ist das Material vor allem durch das Eden Project von Nicholas Grimshaw und die Allianz Arena von Herzog & de Meuron. Derzeit im Bau ist das spektakuläre Schwimmstadion für die Olympischen Spiele 2008 in Beijing - die bislang weltweit größte ETFE-Struktur.Das Buch ist als fundiertes Grundlagenwerk konzipiert, das sowohl Materialeigenschaften wie technologische und konstruktive Verwendungsmöglichkeiten grundsätzlich und umfassend vermittelt. Ausführlich geht die Autorin auf die Spezifika von ETFE in Bezug auf Lichtdurchlässigkeit, Dämmeigenschaften, Akustik, Brandschutz und ökologische Verträglichkeit ein. Ebenso stellt sie anhand von zahlreichen Projektbeispielen Entwurfslösungen vor.
69 --- 691 --- 691.8 --- EFTE --- 691.17 --- 72.039 --- 692(03) --- 692.232 --- 693.8 --- Architectuur materialen alternatieve --- Onderdelen en constructie-elementen van gebouwen --- Architectuur industrieel design 21ste eeuw nieuwe materialen --- Gevelconstructies buitenmuren details --- Lichte constructies lichtgewicht constructies --- Gevelbekledingen 21ste eeuw EFTE --- Wanden muren vloeren plafonds daken gevels --- Ruimtelijke constructies overspanningen kapconstructies --- Bouwmaterialen milieubewuste --- Bouwmaterialen kunststoffen --- Bouwtechniek --- Bouwmaterialen (architectuur) --- Synthetische materialen --- Kunststof --- Macromolecular materials. Rubbers, plastics etc. --- Hedendaagse architectuur. Bouwkunst sinds 1960 --- Constructie-elementen van gebouwen naslagwerken --- Constructie-elementen van gebouwen buitenmuren bekleding --- Architectuurgeschiedenis 2000 - 2050 --- Staalconstructies. Metaalconstructies --- Building materials. --- Fluoropolymers. --- 72.039 Hedendaagse architectuur. Bouwkunst sinds 1960 --- 691.17 Macromolecular materials. Rubbers, plastics etc. --- Fluoropolymers --- Polyethylene terephthalate. --- Plastics in building. --- Building materials --- Architectuur ; industrieel design ; 21ste eeuw ; nieuwe materialen --- Architectuur ; materialen ; alternatieve --- Bouwmaterialen ; kunststoffen --- Bouwmaterialen ; milieubewuste --- Gevelbekledingen ; 21ste eeuw ; EFTE --- Gevelconstructies ; buitenmuren ; details --- Lichte constructies ; lichtgewicht constructies --- Ruimtelijke constructies ; overspanningen ; kapconstructies --- Wanden ; muren ; vloeren ; plafonds ; daken ; gevels --- Fluorinated polymers --- Fluorine plastics --- Fluorocarbon polymers --- Fluoroplastics --- Organofluorine compounds --- Polymers --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Constructie-elementen van gebouwen ; naslagwerken --- Constructie-elementen van gebouwen ; buitenmuren ; bekleding --- Architectuurgeschiedenis ; 2000 - 2050 --- Macromolecular materials. Rubbers, plastics etc --- Plastic building materials --- Plastics --- Building plastics industry --- Ethylene terephthalate polymer --- Mylar (Trademark) --- PET (Chemical) --- Terephthalic acid-ethylene glycol polymer --- Phthalate esters --- Polyesters --- Thermoplastics
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